Motivation

As a dummy Objective-C developer working on my first iPhone application for my company (Dailymotion), I've been very frustrated by the lack of support in the Cocoa Touch framework for UITableView with remote images. After some Googling, I found lot of forums and blogs coming up with their solution, most of the time based on asynchronous usage with NSURLConnection, but none provided a simple library doing the work of async image grabbing + caching for you.

Actually there is one in the famous Three20 framework by Joe Hewitt, but it's a massive and undocumented piece of code. You can't import just the the libraries you want without taking the whole framework (damn #import "TTGlobal.h"). Anyway, the Three20 implementation is based on NSURLConnection, and I soon discovered this solution wasn't ideal. Keep reading to find out why.

As a hurried beginner in iPhone development, I couldn't attempt to implement my own async image grabber with caching support as my first steps in this new world. Thus, I asked for help from my good friend Sebastien Flory (Fraggle), who was working on his great iPhone game (Urban Rivals, a future app-store hit) for almost a year. He spent quite an amount of time implementing the very same solution for his needs, and was kind enough to give me his implementation for my own use. This worked quite well and allowed me to concentrate on other parts of my application. But when I started to compare my application with its direct competitor - the built-in Youtube application - I was very unhappy with the loading speed of the images. After some network sniffing, I found that every HTTP requests for my images was 10 times slower than Youtube's... On my own network, Youtube was 10 time faster than my own servers... WTF??

In fact, my servers were fine but a lot of latency was added to the requests, certainly because my application wasn't responsive enough to handle the requests at full speed. Right then, I understood something important, asynchronous NSURLConnections are tied to the main runloop in the NSEventTrackingRunLoopMode. As explained in the documentation, this runloop mode is affected by UI events:

Cocoa uses this mode to restrict incoming events during mouse-dragging loops and other sorts of user interface tracking loops.

A simple test to recognize an application using NSURLConnection in its default mode to load remote images is to scroll the UITableView with your finger to disclose an unloaded image, and to keep your finger pressed on the screen. If the image doesn't load until you release you finger, you've got one (try with the Facebook app for instance). It took me quite some time to understand the reason for this lagging issue. Actually I first used NSOperation to workaround this issue.

This technique combined with an image cache instantly gave a lot of responsiveness to my app. I thought this library could benefit other Cocoa Touch applications so I open-sourced it.

How To Use It

Using UIImageView+WebCache category with UITableView

Just #import the UIImageView+WebCache.h header, and call the setImageWithURL:placeholderImage: method from the tableView:cellForRowAtIndexPath: UITableViewDataSource method. Everything will be handled for you, from async downloads to caching management.

#import <SDWebImage/UIImageView+WebCache.h>...-(UITableViewCell*)tableView:(UITableView*)tableViewcellForRowAtIndexPath:(NSIndexPath*)indexPath{staticNSString*MyIdentifier=@"MyIdentifier";UITableViewCell*cell=[tableViewdequeueReusableCellWithIdentifier:MyIdentifier];if(cell==nil){cell=[[[UITableViewCellalloc]initWithStyle:UITableViewCellStyleDefaultreuseIdentifier:MyIdentifier]autorelease];}// Here we use the new provided setImageWithURL: method to load the web image[cell.imageViewsetImageWithURL:[NSURLURLWithString:@"http://www.domain.com/path/to/image.jpg"]placeholderImage:[UIImageimageNamed:@"placeholder.png"]];cell.textLabel.text=@"My Text";returncell;}

Using blocks

If your project's deployement target is set to iOS 4+, you may want to use the success/failure blocks to be notified when image have been retrieved from cache.

// Here we use the new provided setImageWithURL: method to load the web image[cell.imageViewsetImageWithURL:[NSURLURLWithString:@"http://www.domain.com/path/to/image.jpg"]placeholderImage:[UIImageimageNamed:@"placeholder.png"]success:^(UIImage*image,BOOLcached){...successcodehere...}failure:^(NSError*error){...failurecodehere...}];];

Using SDWebImageManager

The SDWebImageManager is the class behind the UIImageView+WebCache category. It ties the asynchronous downloader with the image cache store. You can use this class directly to benefit from web image downloading with caching in another context than a UIView (ie: with Cocoa).

Here is a simple example of how to use SDWebImageManager:

SDWebImageManager*manager=[SDWebImageManagersharedManager];[managerdownloadWithURL:imageURLdelegate:selfoptions:0success:^(UIImage*image,BOOLcached){// do something with image}failure:nil];

Using Asynchronous Image Downloader Independently

It is possible to use the async image downloader independently. You just have to create an instance of SDWebImageDownloader using its convenience constructor downloaderWithURL:delegate:.

downloader=[SDWebImageDownloaderdownloaderWithURL:urldelegate:self];

The download will start immediately and the imageDownloader:didFinishWithImage: method from the SDWebImageDownloaderDelegate protocol will be called as soon as the download of image is completed.

Using Asynchronous Image Caching Independently

It is also possible to use the NSOperation based image cache store independently. SDImageCache maintains a memory cache and an optional disk cache. Disk cache write operations are performed asynchronous so it doesn't add unnecessary latency to the UI.

The SDImageCache class provides a singleton instance for convenience but you can create your own instance if you want to create separated cache namespace.

To lookup the cache, you use the imageForKey: method. If the method returns nil, it means the cache doesn't currently own the image. You are thus responsible for generating and caching it. The cache key is an application unique identifier for the image to cache. It is generally the absolute URL of the image.

By default SDImageCache will lookup the disk cache if an image can't be found in the memory cache. You can prevent this from happening by calling the alternative method imageFromKey:fromDisk: with a negative second argument.

To store an image into the cache, you use the storeImage:forKey: method:

[[SDImageCachesharedImageCache]storeImage:myImageforKey:myCacheKey];

By default, the image will be stored in memory cache as well as on disk cache (asynchronously). If you want only the memory cache, use the alternative method storeImage:forKey:toDisk: with a negative third argument.

Using cache key filter

Sometime, you may not want to use the image URL as cache key because part of the URL is dynamic (i.e.: for access control purpose). SDWebImageManager provides a way to set a cache key filter that takes the NSURL as input, and output a cache key NSString.

The following example sets a filter in the application delegate that will remove any query-string from the URL before to use it as a cache key:

Common Problems

Using dynamic image size with UITableViewCell

UITableView determins the size of the image by the first image set for a cell. If your remote images don't have the same size as your placeholder image, you may experience strange anamorphic scaling issue. The following article gives a way to workaround this issue:

Automatic Reference Counting (ARC)

You can use either style in your Cocoa project. SDWebImage Will figure out which you are using at compile time and do the right thing.

Installation

There are two ways to use this in your project: copy all the files into your project, or import the project as a static library.

Add the SDWebImage project to your project

Right-click on the project navigator and select "Add Files to "Your Project":

In the dialog, select SDWebImage.xcodeproj:

After you’ve added the subproject, it’ll appear below the main project in Xcode’s Navigator tree:

You may want to add the SDWebImage directory in your project source tree as a submodule before adding it to your project.

Add build target dependencies

In you application project app’s target settings, find the "Build Phases" section and open the "Target Dependencies" block:

Click the "+" button and select "SDWebImage ARC" (you may choose the non ARC target if you want to support iOS <3 or the ARC+MKAnnotation if you need MapKit category):

Open the "Link Binary With Libraries" block:

Click the "+" button and select "libSDWebImageARC.a" library (use non ARC version if you chose non ARC version in the previous step):

Click the "+" button again and select the "ImageIO.framework", this is needed by the progressive download feature:

If you chose to link against the ARC+MKAnnotation target, click the "+" button again and select "MapKit.framework":

Add headers

Open the "Build Settings" tab, in the "Linking" section, locate the "Other Linker Flags" setting and add the "-ObjC" flag:

In the "Search Paths" section, locate "Header Search Paths" (and not "User Header Search Paths") and add two settings: ”$(TARGET_BUILD_DIR)/usr/local/lib/include” and ”$(OBJROOT)/UninstalledProducts/include”. Double click on the <Multiple values> to pop out the box and click on the "+" icon to add each of them. Make sure to include the quotes here:

Import headers in your source files

In the source files where you need to use the library, import the header file:

#import <SDWebImage/UIImageView+WebCache.h>

Build Project

At this point your workspace should build without error. If you are having problem, post to the Issue and the community can help you solve it.

Fixing indexing

If you have problem with auto-completion of SDWebImage methods, you may have to copy the header files in your project.